Metering and controlling system for electric circuits.



PATENTBD FEB. 19, 1907.

J. J. WOOD.

METERING AND CONTROLLING SYSTEM FOR ELECTRIC CIRCUITS.

AIPLIOATIOR FILED SBPTJZ. 1905.

2 SHEETS-SHEET 1 LW w INVENTOR:

MMJ

lry Jllomzcys, 66mm WITNESSES:

Km MJ; 4 41/. /W M F No. 844,436. PATBNTBB FEB. 19, 1907. J. J. WOOD.

METERING AND CONTROLLING SYSTEM FOR ELECTRIC GIRGUITS.

APPLICATION FILED BEPT.12,1905.

2 SHEETS-SHEET 2- INVENTOR WITNESSES: c W Z I lfiv .[//()/'/1( 'I'S.

' .inserted coins shall have purpose of the present invention.

-UNITED STATES PATENT OFFICE. JAMES J. WOOD, 0F FORT WAYNE, INDIANA. METERING AND coN'rnoLLmssYsrEmFoR ELECTRIC cmculr's.

Specification of mm" Patent Patented Feb. 19, 1907.

wllmflm filed September 12. 1605. mi in. 278,084.

To all whom it may concern.-

Be it known that I, J AMES J. WOOD, a c tizen of the United States, residin at Fort Prepayment-meters are now well known in which the insertion of one or more coins and the operation by means thereof of a suitable coin-operated mechanism closes an electric switch and sets the meter in operation, so that it will maintain the circuit closed until the amount of electric ener paid for by the con consumed, whereupon the meter will cause the operation of the switch to break the circuit, thereby shutting off the supply of further electric energy until the customer prepays therefor.

by the insertion of an additional 00 11130! coins. Such a prepayment-meter includes a switch, a com-operated mechanism for opening it and counting up to the consumer's credit the inserted coin or coins, and'an electric meter for measurin the energy consumed and for causing the final openin of the switch. 7 Such a meter is necessarily imited in capacity by. the conductivity of its series coil and the capacity of its switch. The great variety of requirements of different customers ma be provided for by constructing meters o varying ca acities; but this would involve an undesira bly large number of standard sizes of meters. It is desirable to as far as possible make one kind or size of meter applicable to a great variety of re uirements, and to accomplish this object 18 the ingly select as a standard size a meter of sufficient capacity toanswer the requirements of the ma ority of consumers, and to provide for those cases in which a larger ca acity is needed I make rovision for utilizing such standard meter th for metering a circuit carrying currents in excess oi the capacity of the meter. and for operating a switch exterior to the meter and which iaof ade uate oa-. pacity to control such circuit. 0 these ends instead of introducing the meter directly in circuit with the lamps, motors, or other translating or energy-consuming deternating currents.

tial or electromotive force is usually I accordvices, so that the whole current thereto flows through the series coil of the meter, I arrange the meter 'to receive only a determined proportion or percentage of the energy con sumed in the customers circuit, and instead of arranging the cut-off switch of the meter to directly open or close the customer's circuit I utilize this switch for the purpose of controlling an electrically-o erated relay or remote control switch, whic in turn opens or closes the customers circuit. This relayswitch may be made of varying sizes and of anglrequired capacity.

y invention is most readily ap lioable with an alternating-current system 0 distribution, and accordingly I will illustrate and describe it with special reference thereto. Figure 1 of the accom anying drawings is a circuit diagram inclu ing an elementary illustration of certain portions of a prepayment-meter and an elementary illustration of a suitable magnetic or relay switch. Fig. 2 is a front elevation of certain other portions of the meter.

Referring to Fig. 1, let A designate a linecircuit or portion thereof leading from the power-station and carrying any suitable ale B is the usual trans former, through which the electric energy is communicated from the line-circuit A to the customer's circuit C and by which the oteninunished. D is the controlled magnetic switch for breaking or closing the customer's circuit. To avoid confusion, I will refer to this as the "reliay-swi tch. E is the ortion of the customers circuit which includes the translating or energy-consuming. devices. F is as a whole a prepayment electric meter of any suitable type. This meter includes an suitable coils arranged according to any nownor suitable system for controlling an usual armature or rotor, the particulars oi which do not concern my invention. Merely as an illustration I show a series coil or coils G and a shunt coil or coils H. For complete infor- .mation as to a suitable construction of electric meter reference is made to my Patent No. 780,769, dated Januar 24, 1905. The prepa cut-meter F inclu es also a coin;-0p crate pre ayment mechanism J and aswitch K, which atter, to avoid confusion, I will refor to as the cut-ofl." The cut-off switch K ma be operated in any suitable manner from t e coin-actuated prepayment mechan- IIC ism J. The latter is operated by the insertion of coins and by the electric meter to such effect, preferably, that upon the insertion of one or more coins it counts up the value thereof to the credit of the customer, and as the meter indicates the consumption of electric ener the prepayment device counts down or diminishes this credit, and upon the final consumption of'the energy purchased b the inserted coins it causes or permits the cl osing of the switch: The details of the mechanism or its operation are immaterial, it being only essential that the insertion of a coin shall cause the cut-off to be closed, and the consumption of the energy thus prepaid for shall cause the cut-ofl to be opened. A suitable construction of prepayment-meter ada ted to perform these functions is fully set orth in my application filed December 3,.

1904, Serial No. 235,412, patented December 5, 1905, No. 806,722, to which reference is made. For the purposes of the present invention it will be sufficient to say that in the elementary or diagrammatic illustration contained in Fig. l a'disk or credit-indicator a is turned against the stress of an internal spring b by the act of inserting a coin at aslot c and turning a barrel (1, so that the coin acts to turn an inner spindle e, from which motion is communicated to the disk 11, after which the coin falls out throu h a conduit f into any desired receptacle. he first turning of the disk 0. acts, through a cam upon a.roller h, to turn'a lever 'i and through a rod to press up a cross-piece k, carrying conducting s rings, brushes, or bridges Z Z, and pressing t em against terminal contacts m m to close the circuit. The cut-off K comprises these brushes and contacts. Obviousl a single brush Z and air of contacts mwil suffice, or other own construction of electric switch or cut-off might be used, the entire illustration of the prepayment mechanism and cut-ofi' being here given by way only of affording one example of the application of myNinvention.

hile my resent invention is notlimited to any specia construction of the mechanism of the prepayment-meter, yet to facilitate an understanding of the operation I have shown in Fig. 2 those features of my aforesaid application (Patent No. 806,722) which constitute the counting -down mechanism" of one of the embodiments of the invention set forth therein. The disk or indicator or is constructed as a barrel or case turning on a :fixed'bushing, ;11 and inclosing the s ring b, which is fastenedatone end to this ushmg and at the other "end to the barrel. The back of the barrel carries; stud 12,'en which turns a'planet-wheel 13 which meshes with a pinion 14, formed on the rearportion of the aforesaid spindle e, and on itslopposite side meshes wit gear-teeth 15, forming-partbf a gear-wheel 16, which haaputer teeth,,17,

.municated through the train of gearing meshing through a train 18 19 20 with an esca e-wheel 21, having an escape-tooth 22, whic is controlled by pallets 23 24- on an escapement-arm 25, pivoted at 26, and to which is fastened an arm 27, in theslot of which turns an eccentric 28, fixed on a spindle 29, which is rotated by the totalizing mechanism of the meter. The meter is shown as having as its rotary member a diskarmature 30, mounted on a spindle 31, formed with a worm 32, which turns a wormwheel 33, which through a pinion 34 drives the gear 35 of the units-s indle 36, forming part of the totalizer, of w ich only the front plate 37 is shown. The spindle 29 is driven from any suitable part of the totalizer-train.

The insertion ofsuccessive coins results in impartin successive halfturns to the spindle e, which the gear 16 being stationary) causes the planet-gear l3to travel intermittently around, thereby carrying with it the indicator a and counting up how many coins have been inserted. After the first movement from the starting or zero position, which closes the cut-off, the latter remains closed until the indicator returns to its zero position. Its return is by successive step-bystep movements under control of the meter through the counting-down mechanism, of which an example is shown in Fig. 2. 'lhus such number of rotations of the armature as corresponds to a prescribed ex enditure of electric energy imparts one comp ete rotation to the eccentric 28, thereby rocking the escape-arm 25 slowly from side to side, so that its pallets 23 24 successively release the tooth 22, permitting the escape-Wheel 21, impelled by the stress of the spring b, comto execute one revolution, so that the wheel 16 turns such fraction of a revolution as will displace the lanet-wheel 13, and with it the indicator (1, ackward a distance equal to its forward movement upon the insertion of a coin. The last of these successive backward or counting-down -movements thus restores the indicator to the initial or zero osition shown, so that the cut-off K is opened by the dropping of the roller it into the recess g, Fig. l, t ereby lowering the amt, rod 7', and

crosspiece k.

'1 he relay-switch D comprises, essentially, an electrcmagnet or solenoidand any suitable electric switch or cut-out operated thereby the coil of the ma et being in circuit with-the cutofi' K so ti comes the circuit-breaker co lay-switch. 'Ihe relay-switch is own as haying a fixed coil p and a movable core g, the latter acting through toggle-links r r to move levers s s, carrying conducting-brushes t 1! into or out of contact with fixed contactterminals u u. Whileit isrpreferable to use a double-pole switch, a single-pole switch might be used, and the movable member at e latter lee-- nidili the rethereof may be in any suitable way connected to the movable member of the magnet or solenoid- The relay-switch D has its terminals a connected in the customer's circpit U, and these terminals and the conductingbrushes t, which serve as bridges, must of course be given adequate conductivity for carrying the maximum currentwhich may traverse this circuit. The coilp'is connected in a shuntcircuit c 1), which, in efi'ect, bridges the terminals of the secondary of the transformer B, andwhich shunt is opened or closed by the cut-off K.

Instead of connecting the coils of the meter directly in the customers circuit, as is usual, an indirect connection is made by which some definite proportion or percentage of the energy transmitted to the circuit E is communicated to the coils ofthe meter. The most convenient means for accomplishing this result is to provide what I. may call a current or percentage transformer L, the primary of which is located in the customers circuit and the secondary w of which is connected in a circuit at :17, leading to the meter and connected in any usual way with the series meter-coilsG. The transformer L is'so' woundthat its secondary to receives a definite and predetermined proportion of the energy traversing the primary coilsay, for example, five per cent. The proportions may vary in every separate installation, being limited by the relation between the maximum capacity of the meter and the maximum capacity of the customers circuitthat is to say, the maximum current in the customers circuit should induce in the secondary a current not exceeding the maxi-v mum for which the meter is designed. The definite relation between the primary and the secondary of the percentage-transformer being known, the meter will record in the same rel'ationthat is to say, for example, if

the ratio be five per cent. it will record five er cent. of the consumed energy, and hence it is only necessary to provide it with a scale graduated to indicate one hundred per cent. of energy for every five per cent. actually passing through themeter. a v

The operation is as follows: Starti with the en position of the respective switches, let it e supposedthat the customer deposits one or more coins in the prepayment-meter and properly actuates the same. The immediate result thereof is the closing of the cut-off K, which by closing the shunt v energizes'the coil p, and the attraction of its core moves .the brushes 1 into contact with the terminals u, and thereby closes the customer's circuit C, so that the current is conducted to the consuming portion E thereof. I The action of the percentage transformer L causes a proportionate but lesser manifestation of energy in the local circuit a: and by energizt e coils G operates the meter at a pro portionate rate of speed. The meter in turn controls the prepayment mechanism, and when the amount of energy prepaid for by thevalue of the coins inserted has been consumed the prepayment mechanism operates the cut-cit K, thereby breaking the shunt 'v, denergizing the magnet p g, and causing the relay-switch D to open, (by gravity or otherwise,) thereby breaking the customers circuit C and cutting oh the supply of energy. Upon the insertion of another coin or coins the operation is repeated.

One important application of my invention is to the operation of electric signs or the illumination of show-windows or the like, where it is desired that the operation shall continue tor only a predetermined time, whereupon the current shall be cut off and further expenditure shall be saved without the necessity of having some person operate a switch at the desired time. With any given installation it is known'or can be determined by experiment how long the operation will continue for each coin inserted, so that the consumer by inserting into the meter the number of coins required to keep the system in operation as many hours as he desires may maintain his show-window, sign, or the like in operation up to approximately any desired hour in the night, whereupon the meter will operate the relay-switch and shut off the current automatically. My invention is applicable generally wherever it is desired to control by a prepayment-meter a customers circuit carrying a current in excess of that for which the meter is designed. My invention thus enables one standard size or capacity of prepayment-meter to be used in connection with any customers circuit, whatever its capacity, within reasonable limits, it being onlynecessary that the relay-switch be given adequate capacity and that the percentage-transformer be wound to afford the re uisite ratio between the meter-current an that of the customer's circuit.

The shunt-coi ls H of the meter may be variously arranged to receive the electrornotive force of the secondary of transformer B. I have shown them in a shunt-circuit'y, which is in arallel with-the coil 1). One terminal may ead to one of the contacts m and the other to the shunt :n, which latter is connect- .ed to the circuit C by a bridge y, or the wires 'y might'be led directly to the circuit C.

It is important that the relay-switch, like the meter, beinclosed in a casing which 18 sealed to prevent tamperingtherewith.

It is preferable to construct the relayswitch to close the customers circuit when its magnet is energized and open it when t is denergized; but my invention is not hmited to this arrangement. With such a relayswitchjt follows that the cut-ofl K be arranged, as shown, to break the shunt v'when the customers prepaid credit is exhausted IOC M modiiications in matters of construction, electrical proportions, and arrangement, as will be readily understood by those skilled in the art.

' In another application,'Se1'ial No. 280,591, filed September 29, 1905, I have set forth in detail a construction of magnetic switch which is well adapted to serve as the relayswitch D of my present invention. I make no claim in this application to any special construction of such switch. 7,.

When applied to direct-current circuits", the current-transformer is omitted and the series coils G of the meter may be ap lied di rectly in the customers circuit in t e ordinary manner, or any known means may be provided for dividing the current proportionally, so as to direct a known percentage through the meter-coils, such as by dividing.

the load and connecting the meter with one division thereof or by introducing a motorgenerator or rotary transformer in place of the transformer L.

What I claim is 1. The combination of an electric meter, a customer's circilit, a separate relay-switch for opening and closing thecustomef's circuit, means controlled by the meter for opening saidswitch upon the recording of a pre determined amount of electric energy, and means for applying to the meter a portion only of the energy expended in the cus tomers circuit to operate the meter.

2. The combination of an electric meter, a relay-switch, a customers circuit, controlled by said relay-switch, means for opening said switch under control ofthe meter, and me ans for diverting from said'circuit a determined percentage of the energy consumed therein and a plying the same to control said meter, where y the latter records at a-rate propor tlona'l to the consumption, until it causes the.

opening of said relay-switch, which breaks the customer's circuit.

3. The combination in an alternating-current system of an electric meter, a relayswiteh,'a customers circuit controlled by said relay-switch. means controlled by said meter for op aving its primary in said customers circuit and its secondary in circuit with the meter.

4. The combination of an electric meter comprising series and shunt coils, a cut-off switch, and means for operating said switch under control of the meter, a customer's circuit controlling the meter through its series coil, a relay-switch controlling said circuit, said switch comprising a magnet a connection between the cut-0'3 of the meter and the magnet of said relay-switch and a shunt-circuit including the shunt-coil of the meter;

5. The combination in an alternating-current system of an electric meter comprising series and shunt coils, a counting-down mechanism controlled by the meter, and a cut-off operated by said counting-down mechanism, a cnstomers circuit, a percentage -transformer therein with its secondary in circuit with said series coil, a relay-switch controlling the customers circuit, said switch com prising'a magnet a shunt including the magnet of said switch-and the cut-off of the meter and another shunt includi the shuntcoil of the meter and arrange to be controlled by said cut-off.

6. The combination of an electric meter having a counting up mechanism and a count -down mechanism, the latter controlled y the meter, a relay-switch, ineans for closing said switch the operation of the counting-up mechanism, and for opening 'it by the operation of the counting-down mechanism, a customer's circuit controlledlby said relay-switch, and means for diverting from said circuit a determined percent energy consumed therein and ap' yipg the same to control said meter, where y the lat JAMES J. WOOD.

Witnesses: DOMINGO A. USINA, l Tnnonoas T. SNELL.

e of the:

ter records at arate proportional to the con- 

